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中国精品科技期刊2020
杨恒, 陈银基, 邹烨, 王道营, 徐为民, 胡慧敏, 陈晨. 两种方法提取的鸡肺胶原蛋白性质及保湿性研究[J]. 华体会体育, 2020, 41(17): 1-8. DOI: 10.13386/j.issn1002-0306.2020.17.001
引用本文: 杨恒, 陈银基, 邹烨, 王道营, 徐为民, 胡慧敏, 陈晨. 两种方法提取的鸡肺胶原蛋白性质及保湿性研究[J]. 华体会体育, 2020, 41(17): 1-8. DOI: 10.13386/j.issn1002-0306.2020.17.001
YANG Heng, CHEN Yin-ji, ZOU Ye, WANG Dao-ying, XU Wei-min, HU Hui-min, CHEN Chen. Properties and Moisture Retention of Chicken Lung Collagen by Two Extraction Methods[J]. Science and Technology of Food Industry, 2020, 41(17): 1-8. DOI: 10.13386/j.issn1002-0306.2020.17.001
Citation: YANG Heng, CHEN Yin-ji, ZOU Ye, WANG Dao-ying, XU Wei-min, HU Hui-min, CHEN Chen. Properties and Moisture Retention of Chicken Lung Collagen by Two Extraction Methods[J]. Science and Technology of Food Industry, 2020, 41(17): 1-8. DOI: 10.13386/j.issn1002-0306.2020.17.001

两种方法提取的鸡肺胶原蛋白性质及保湿性研究

Properties and Moisture Retention of Chicken Lung Collagen by Two Extraction Methods

  • 摘要: 本文以鸡肺为原材料,利用酸提和超声辅助酸提法提取胶原蛋白,并对其性质及保湿性进行研究。结果表明,所提取的鸡肺胶原蛋白经氨基酸分析显示组成基本相似,甘氨酸含量最高,分别占24.12%和23.93%,亚氨基酸含量仅次之,分别占19.74%和22.28%。酸提和超声辅助酸提胶原蛋白在229.0和224.9 nm处有胶原蛋白的特征紫外吸收峰。SDS-PAGE显示两种鸡肺胶原蛋白中均含有α1链、α2链、少量的β链和γ链,傅里叶变换红外光谱及X-射线衍射图谱共同表明两种方法提取的鸡肺胶原蛋白分子排列紧密,均保持了原有的三螺旋结构,说明在超声辅助酸提过程中胶原蛋白的结构保持完好,三螺旋结构未被破坏。酸提的胶原蛋白等电点为7,粒径分布在340 nm左右;超声辅助酸提的胶原蛋白等电点为6,粒径分布在295 nm左右,结合胶原蛋白的溶解性说明了超声辅助酸提可破坏胶原蛋白的氢键,改变蛋白质的颗粒大小和聚集形态。扫描电镜结果表明超声辅助酸提的胶原蛋白结构呈连续纤维状并多孔,且颗粒直径明显减小。在放置24 h时,超声辅助酸提胶原蛋白的吸水性和保水性分别为常规酸提胶原蛋白的1.25倍和1.17倍。综上所述,超声辅助酸提未破坏胶原蛋白特有的三螺旋结构,通过改变氢键和蛋白的颗粒大小使得胶原蛋白具有更好的溶解性和吸湿保湿性。

     

    Abstract: Collagen was extracted from chicken lung by acid extraction and ultrasonic-assisted acid extraction,then its properties and moisture retention were studied. Amino acid analysis of chicken lung collagen extraction showed that the composition was basically similar,the content of glycine was the highest(24.12% and 23.93%),and the imino acid content was the second,19.74% and 22.28%,respectively. The UV absorption peaks of acid extraction and ultrasonic-assisted acid extraction were respectively at 229.0 and 224.9 nm. SDS-PAGE showed that the two collagen extraction contained α1 chain,α2 chain,a small amount of β chain and γ chain. Fourier transform infrared spectroscopy and X-ray diffraction pattern showed that the collagen molecules extracted by the two methods were compact and maintained their original triple helix structure,indicating that the structure of collagen remained intact during ultrasonic-assisted acid extraction. The triple helix structure was not destroyed. The isoelectric point of acid extracted collagen was 7,the particle size distribution was around 340 nm,the isoelectric point of collagen by ultrasonic-assisted acid extraction was 6,and the particle size distribution was around 295 nm. With the solubility of collagen,it could explain that ultrasonic-assisted acid extraction could destroy the hydrogen bonds of collagen and change the particle size and aggregation morphology of the protein. SEM showed that the collagen structure of ultrasonic-assisted acid extraction was continuous and porous,and the particle diameter was significantly reduced. The water absorption and water retention of ultrasonic-assisted acid extraction collagen were 1.25 times and 1.17 times that of conventional acid extraction collagen respectively when placed for 24 h. In summary,ultrasonic-assisted acid extraction did not destroy the unique triple helix structure of collagen. The collagen had better solubility and moisture absorption by changing the hydrogen bond and the particle size of the protein.

     

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